C9orf72 ablation causes immune dysregulation characterized by leukocyte expansion, autoantibody production and glomerulonephropathy in mice

Atanasio, Amanda; Decman, Vilma; White, Derek W. R.; Ramos, Meg Ferrell; Ikiz, Burcin; Lee, Hoi-Ching; Siao, Chia-Jen; Brydges, Susannah; LaRosa, Elizabeth; Bai, Yu; Fury, Wen; Burfeind, Patricia; Zamfirova, Ralica; Warshaw, Gregg; Orengo, Jamie M.; Oyejide, A.; Fralish, Michael; Auerbach, Wojtek; Poueymirou, William; Freudenberg, Jan; Gong, Guochun; Zambrowicz, Brian; Valenzuela, David M.; Yancopouloš, George D.; Murphy, Andrew J.; Thurston, Gavin; Lai, Ka‐Man Venus

doi:10.1038/srep23204

Cited by 226 publications

(257 citation statements)

References 66 publications

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“…Transplantation of mutant (−/−) bone marrow cells to wild type (WT) animals caused autoimmunity and premature mortality, whereas transplantation of WT mice bone marrow cells into mutant (−/−) animals improved phenotype (2). This work is in agreement with the work of Atanasio et al (5) who found that C9orf72 null mice developed myeloid expansion, T cell activation and increased plasma cells. C9orf72 null mice had autoantibodies and glomerulopathy, abnormalities reminiscent of SLE.…”

supporting

confidence: 82%

Loss of C9orf72 function leads to autoimmunity

2017

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supporting

confidence: 82%

Loss of C9orf72 function leads to autoimmunity

2017

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“…Several studies of germline knockout of C9orf72 in mice were published last year that provide insights into how haploinsufficiency of C9orf72 could contribute to neurodegeneration (105)(106)(107). None of the mice in these studies showed neurodegeneration or motor system dysfunction consistent with ALS/FTD phenotypes, suggesting that C9orf72 function is not as critical in mammalian neurons as was observed in lower organisms.…”

Section: C9orf72 Myeloid Cells and Immunity: An Unexpected Connectionmentioning

confidence: 99%

Microglia and C9orf72 in neuroinflammation and ALS and frontotemporal dementia

Lall¹,

Baloh²

2017

Journal of Clinical Investigation

142

102

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Genetic connections between microglia and neurodegenerationMicroglia are the main cells in the CNS responsible for immune surveillance and are critical for normal development and homeostasis (34)(35)(36). Under steady-state conditions, "ramified" microglia continuously survey the local microenvironment for any foreign antigens and insults. The resident microglia are Amyotrophic lateral sclerosis (ALS) is a degenerative disorder that is characterized by loss of motor neurons and shows clinical, pathological, and genetic overlap with frontotemporal dementia (FTD). Activated microglia are a universal feature of ALS/FTD pathology; however, their role in disease pathogenesis remains incompletely understood. The recent discovery that ORF 72 on chromosome 9 (C9orf72), the gene most commonly mutated in ALS/FTD, has an important role in myeloid cells opened the possibility that altered microglial function plays an active role in disease. This Review highlights the contribution of microglia to ALS/FTD pathogenesis, discusses the connection between autoimmunity and ALS/FTD, and explores the possibility that C9orf72 and other ALS/FTD genes may have a "dual effect" on both neuronal and myeloid cell function that could explain a shared propensity for altered systemic immunity and neurodegeneration.

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“…Moreover, increased activated circulating macrophages, abnormal numbers of CD4 T‐cells, antibodies and circulating immune complex have been described in blood of ALS patients, but the results have been inconsistent 70, 71. Interestingly, the development of C9orf72 null mouse models, after identification of a mutated version of this gene in a significant proportion of ALS patients, did not lead to overt motor impairment 72, 73. Instead, an array of peripheral immune organ abnormalities arose, including splenomegaly, lymphadenopathy and eventually an autoimmune‐like phenotype 72, 73.…”

Section: Status Of Neuroinflammation In Als and Smamentioning

confidence: 99%

“…Interestingly, the development of C9orf72 null mouse models, after identification of a mutated version of this gene in a significant proportion of ALS patients, did not lead to overt motor impairment 72, 73. Instead, an array of peripheral immune organ abnormalities arose, including splenomegaly, lymphadenopathy and eventually an autoimmune‐like phenotype 72, 73. Nonetheless, macrophages and microglia appeared particularly susceptible, showing lysosomal dysfunction and a proinflammatory state 73.…”

Section: Status Of Neuroinflammation In Als and Smamentioning

confidence: 99%

New insights into SMA pathogenesis: immune dysfunction and neuroinflammation

Deguise

Kothary

2017

Ann Clin Transl Neurol

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Spinal muscular atrophy (SMA) is a neuromuscular disorder characterized by motor neuron degeneration, although defects in multiple cell types and tissues have also been implicated. Three independent laboratories recently identified immune organ defects in SMA. We therefore propose a novel pathogenic mechanism contributory to SMA, resulting in higher susceptibility to infection and exacerbated disease progression caused by neuroinflammation. Overall, compromised immune function could significantly affect survival and quality of life of SMA patients. We highlight the recent findings in immune organ defects, their potential consequences on patients, our understanding of neuroinflammation in SMA, and new research hypotheses in SMA pathogenesis.

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C9orf72 ablation causes immune dysregulation characterized by leukocyte expansion, autoantibody production and glomerulonephropathy in mice

Cited by 226 publications

References 66 publications

Loss of C9orf72 function leads to autoimmunity

Loss of C9orf72 function leads to autoimmunity

Microglia and C9orf72 in neuroinflammation and ALS and frontotemporal dementia

New insights into SMA pathogenesis: immune dysfunction and neuroinflammation

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